Immune system works differently between and first and later pregnancies

Immune system works differently between and first and later pregnancies

Among the holy quests of serious and mysterious medical challenges that doctors and research scientists strive to vanquish is preventing miscarriages, stillbirth and other pregnancy complications including preterm births.

"We don't understand at a cellular and molecular level what causes miscarriages or preterm births, mainly because we don't know how pregnancy works normally," says the senior author.

The scientists used animal pregnancy models so that variables in evaluating differences in human pregnancy outcomes including maternal age, genetic diversity between parents and number of prior pregnancies can be properly evaluated.

A mother's immune system is altered during pregnancy to prevent a fetus from being rejected by the body. It is a delicate immunological balance that, if disrupted, could cause a miscarriage or multiple miscarriages. And unfortunately, that balance does too often become disrupted by environmental exposures or physiological changes leading to pregnancy complications.

The team is now adding an important new wrinkle by reporting in Cell Reports that a woman's immune system behaves very differently between a first and second pregnancy.

Researchers say this could lead to more personalized and more effective therapeutic strategies.

"First and subsequent pregnancies work very differently and understanding these differences can lead to improved therapies that target the unique immunological perturbations that occur in first and later pregnancies," explained the study's principal investigator.

The study shows the immune pathways that promote a healthy first pregnancy are not the same pathways that promote later pregnancies.

The authors discuss how pregnancy causes physiological exposure, and often re-exposure, to foreign fetal allo-antigens, which are expressed by the developing fetus. These allo-antigens interact directly with the mother's immune system. The consequences after pregnancy are highly varied, they note.

The researchers found evidence of both alloimmunization (where the immune system attacks) and expanded tolerance phenotypes where it does not. Their data show that pregnancy primes accumulation of fetal-specific maternal CD8+ T cells, and that mothers remember their babies immunologically in that these cells persists as an activated memory pool after she gives birth.

Expression to two proteins, PD-1 and LAG-3 by what are called memory T cells, reminds the cells to again be tolerant of the developing fetus again during subsequent pregnancies. But molecular disruptions that neutralize expression of these proteins unleash the activation of fetal-specific CD8+ T cells, causing miscarriage selectively during subsequent, but not first pregnancies, according to the study's first author.